Add to ORKGThe efficient delivery of light energy is a prerequisite for the non-invasive imaging and stimulating of target objects embedded deep within a scattering medium. However, the injected waves experience random diffusion by multiple light scattering, and only a small fraction reaches the target object. Here, we present a method to counteract wave diffusion and to focus multiple-scattered waves at the deeply embedded target. To realize this, we experimentally inject light into the reflection eigenchannels of a specific flight time to preferably enhance the intensity of those multiple-scattered waves that have interacted with the target object. For targets that are too deep to be visible by optical imaging, we demonstrate a more than tenfold enh...
The ability to steer and focus light inside scattering media has long been sought for a multitude of...
Optical microscopy suffers from a loss of resolving power when imaging targets are embedded in thick...
Optical microscopy and manipulation methods rely on the ability to focus light to a small volume. Ho...
© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement In com...
Sensing and manipulating targets hidden under scattering media are universal problems that take plac...
The main obstacle for optical imaging or for sending information through turbid media such as paint,...
Propagation of light through scattering media such as glass diffuser or biological tissues is usuall...
The recent advent of wave-shaping methods has demonstrated the focusing of light through and inside ...
Light waves incident to a highly scattering medium are incapable of penetrating deep into the medium...
Light propagation in materials with microscopic inhomogeneities is affected by scattering. In scatte...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
The deterministic nature of scattering in turbid media and the advances in light control have opened...
In complex media such as white paint and biological tissue, light encounters nanoscale refractive-in...
Multiple light scattering is considered as the major limitation for deep imaging and focusing in tur...
Diffusion makes it difficult to predict and control wave transport through a medium. Overcoming wave...
The ability to steer and focus light inside scattering media has long been sought for a multitude of...
Optical microscopy suffers from a loss of resolving power when imaging targets are embedded in thick...
Optical microscopy and manipulation methods rely on the ability to focus light to a small volume. Ho...
© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement In com...
Sensing and manipulating targets hidden under scattering media are universal problems that take plac...
The main obstacle for optical imaging or for sending information through turbid media such as paint,...
Propagation of light through scattering media such as glass diffuser or biological tissues is usuall...
The recent advent of wave-shaping methods has demonstrated the focusing of light through and inside ...
Light waves incident to a highly scattering medium are incapable of penetrating deep into the medium...
Light propagation in materials with microscopic inhomogeneities is affected by scattering. In scatte...
Light focusing plays a central role in biomedical imaging, manipulation and therapy. In scattering m...
The deterministic nature of scattering in turbid media and the advances in light control have opened...
In complex media such as white paint and biological tissue, light encounters nanoscale refractive-in...
Multiple light scattering is considered as the major limitation for deep imaging and focusing in tur...
Diffusion makes it difficult to predict and control wave transport through a medium. Overcoming wave...
The ability to steer and focus light inside scattering media has long been sought for a multitude of...
Optical microscopy suffers from a loss of resolving power when imaging targets are embedded in thick...
Optical microscopy and manipulation methods rely on the ability to focus light to a small volume. Ho...